氟哌利多用于治疗精神病性激越或激惹。
Droperidol for psychosis-induced aggression or agitation.
作者信息
Khokhar Mariam A, Rathbone John
机构信息
Oral Health and Development, University of Sheffield, 15 Askham Court, Gamston Radcliffe Road, Nottingham, UK, NG2 6NR.
Faculty of Health Sciences and Medicine, Bond University, Robina, Gold Coast, Queensland, Australia, 4229.
出版信息
Cochrane Database Syst Rev. 2016 Dec 15;12(12):CD002830. doi: 10.1002/14651858.CD002830.pub3.
BACKGROUND
People experiencing acute psychotic illnesses, especially those associated with agitated or violent behaviour, may require urgent pharmacological tranquillisation or sedation. Droperidol, a butyrophenone antipsychotic, has been used for this purpose in several countries.
OBJECTIVES
To estimate the effects of droperidol, including its cost-effectiveness, when compared to placebo, other 'standard' or 'non-standard' treatments, or other forms of management of psychotic illness, in controlling acutely disturbed behaviour and reducing psychotic symptoms in people with schizophrenia-like illnesses.
SEARCH METHODS
We updated previous searches by searching the Cochrane Schizophrenia Group Register (18 December 2015). We searched references of all identified studies for further trial citations and contacted authors of trials. We supplemented these electronic searches by handsearching reference lists and contacting both the pharmaceutical industry and relevant authors.
SELECTION CRITERIA
We included all randomised controlled trials (RCTs) with useable data that compared droperidol to any other treatment for people acutely ill with suspected acute psychotic illnesses, including schizophrenia, schizoaffective disorder, mixed affective disorders, the manic phase of bipolar disorder or a brief psychotic episode.
DATA COLLECTION AND ANALYSIS
For included studies, we assessed quality, risk of bias and extracted data. We excluded data when more than 50% of participants were lost to follow-up. For binary outcomes, we calculated standard estimates of risk ratio (RR) and the corresponding 95% confidence intervals (CI). We created a 'Summary of findings' table using GRADE.
MAIN RESULTS
We identified four relevant trials from the update search (previous version of this review included only two trials). When droperidol was compared with placebo, for the outcome of tranquillisation or asleep by 30 minutes we found evidence of a clear difference (1 RCT, N = 227, RR 1.18, 95% CI 1.05 to 1.31, high-quality evidence). There was a clear demonstration of reduced risk of needing additional medication after 60 minutes for the droperidol group (1 RCT, N = 227, RR 0.55, 95% CI 0.36 to 0.85, high-quality evidence). There was no evidence that droperidol caused more cardiovascular arrhythmia (1 RCT, N = 227, RR 0.34, 95% CI 0.01 to 8.31, moderate-quality evidence) and respiratory airway obstruction (1 RCT, N = 227, RR 0.62, 95% CI 0.15 to 2.52, low-quality evidence) than placebo. For 'being ready for discharge', there was no clear difference between groups (1 RCT, N = 227, RR 1.16, 95% CI 0.90 to 1.48, high-quality evidence). There were no data for mental state and costs.Similarly, when droperidol was compared to haloperidol, for the outcome of tranquillisation or asleep by 30 minutes we found evidence of a clear difference (1 RCT, N = 228, RR 1.01, 95% CI 0.93 to 1.09, high-quality evidence). There was a clear demonstration of reduced risk of needing additional medication after 60 minutes for participants in the droperidol group (2 RCTs, N = 255, RR 0.37, 95% CI 0.16 to 0.90, high-quality evidence). There was no evidence that droperidol caused more cardiovascular hypotension (1 RCT, N = 228, RR 2.80, 95% CI 0.30 to 26.49,moderate-quality evidence) and cardiovascular hypotension/desaturation (1 RCT, N = 228, RR 2.80, 95% CI 0.12 to 67.98, low-quality evidence) than haloperidol. There was no suggestion that use of droperidol was unsafe. For mental state, there was no evidence of clear difference between the efficacy of droperidol compared to haloperidol (Scale for Quantification of Psychotic Symptom Severity, 1 RCT, N = 40, mean difference (MD) 0.11, 95% CI -0.07 to 0.29, low-quality evidence). There were no data for service use and costs.Whereas, when droperidol was compared with midazolam, for the outcome of tranquillisation or asleep by 30 minutes we found droperidol to be less acutely tranquillising than midazolam (1 RCT, N = 153, RR 0.96, 95% CI 0.72 to 1.28, high-quality evidence). As regards the 'need for additional medication by 60 minutes after initial adequate sedation, we found an effect (1 RCT, N = 153, RR 0.54, 95% CI 0.24 to 1.20, moderate-quality evidence). In terms of adverse effects, we found no statistically significant differences between the two drugs for either airway obstruction (1 RCT, N = 153, RR 0.13, 95% CI 0.01 to 2.55, low-quality evidence) or respiratory hypoxia (1 RCT, N = 153, RR 0.70, 95% CI 0.16 to 3.03, moderate-quality evidence) - but use of midazolam did result in three people (out of around 70) needing some sort of 'airway management' with no such events in the droperidol group. There were no data for mental state, service use and costs.Furthermore, when droperidol was compared to olanzapine, for the outcome of tranquillisation or asleep by any time point, we found no clear differences between the older drug (droperidol) and olanzapine (e.g. at 30 minutes: 1 RCT, N = 221, RR 1.02, 95% CI 0.94 to 1.11, high-quality evidence). There was a suggestion that participants allocated droperidol needed less additional medication after 60 minutes than people given the olanzapine (1 RCT, N = 221, RR 0.56, 95% CI 0.36 to 0.87, high-quality evidence). There was no evidence that droperidol caused more cardiovascular arrhythmia (1 RCT, N = 221, RR 0.32, 95% CI 0.01 to 7.88, moderate-quality evidence) and respiratory airway obstruction (1 RCT, N = 221, RR 0.97, 95% CI 0.20 to 4.72, low-quality evidence) than olanzapine. For 'being ready for discharge', there was no difference between groups (1 RCT, N = 221, RR 1.06, 95% CI 0.83 to 1.34, high-quality evidence). There were no data for mental state and costs.
AUTHORS' CONCLUSIONS: Previously, the use of droperidol was justified based on experience rather than evidence from well-conducted and reported randomised trials. However, this update found high-quality evidence with minimal risk of bias to support the use of droperidol for acute psychosis. Also, we found no evidence to suggest that droperidol should not be a treatment option for people acutely ill and disturbed because of serious mental illnesses.
背景
患有急性精神病性疾病的人,尤其是那些伴有激越或暴力行为的患者,可能需要紧急药物镇静。氟哌利多,一种丁酰苯类抗精神病药物,已在多个国家用于此目的。
目的
评估氟哌利多与安慰剂、其他“标准”或“非标准”治疗方法或其他精神病性疾病管理形式相比,在控制急性精神分裂症样疾病患者的急性精神障碍行为和减轻精神病性症状方面的效果,包括其成本效益。
检索方法
我们通过检索Cochrane精神分裂症研究组注册库(2015年12月18日)更新了之前的检索。我们检索了所有已识别研究的参考文献以获取更多试验引用,并联系了试验作者。我们通过手工检索参考文献列表以及联系制药行业和相关作者来补充这些电子检索。
选择标准
我们纳入了所有具有可用数据的随机对照试验(RCT),这些试验将氟哌利多与其他任何治疗方法进行比较,用于患有疑似急性精神病性疾病的急性病患者,包括精神分裂症、分裂情感性障碍、混合性情感障碍、双相情感障碍的躁狂发作或短暂精神病性发作。
数据收集与分析
对于纳入的研究,我们评估了质量、偏倚风险并提取了数据。当超过50%的参与者失访时,我们排除这些数据。对于二分类结局,我们计算了风险比(RR)的标准估计值以及相应的95%置信区间(CI)。我们使用GRADE创建了一个“结果总结”表。
主要结果
我们在更新检索中识别出四项相关试验(本综述的上一版本仅包括两项试验)。当将氟哌利多与安慰剂比较时,对于30分钟时达到镇静或入睡的结局,我们发现有明显差异的证据(1项RCT,N = 227,RR 1.18,95% CI 1.05至1.31,高质量证据)。有明确证据表明氟哌利多组在60分钟后需要额外用药的风险降低(1项RCT,N = 227,RR 0.55,95% CI 0.36至0.85,高质量证据)。没有证据表明氟哌利多比安慰剂导致更多的心血管心律失常(1项RCT,N = 227,RR 0.34,95% CI 0.01至8.31,中等质量证据)和呼吸道梗阻(1项RCT,N = 227,RR 0.62,95% CI 0.15至2.52,低质量证据)。对于“准备好出院”,两组之间没有明显差异(1项RCT,N = 227,RR 1.16, 95% CI 0.90至1.48,高质量证据)。没有关于精神状态和成本的数据。
同样,当将氟哌利多与氟哌啶醇比较时,对于30分钟时达到镇静或入睡的结局,我们发现有明显差异的证据(1项RCT,N = 228,RR 1.01,95% CI 0.93至1.09,高质量证据)。有明确证据表明氟哌利多组的参与者在60分钟后需要额外用药的风险降低(2项RCT,N = 255,RR 0.37,95% CI = 0.16至0.90,高质量证据)。没有证据表明氟哌利多比氟哌啶醇导致更多的心血管低血压(1项RCT,N = 228,RR 2.80,95% CI 0.30至26.49,中等质量证据)和心血管低血压/血氧饱和度下降(1项RCT,N = 228,RR 2.80,95% CI 0.12至67.98,低质量证据)。没有迹象表明使用氟哌利多不安全。对于精神状态,没有证据表明氟哌利多与氟哌啶醇的疗效有明显差异(精神病性症状严重程度量化量表,1项RCT,N = 40,平均差(MD)0.11,95% CI -0.07至0.29,低质量证据)。没有关于服务使用和成本的数据。
然而,当将氟哌利多与咪达唑仑比较时,对于30分钟时达到镇静或入睡的结局,我们发现氟哌利多的急性镇静效果不如咪达唑仑(1项RCT,N = 153,RR 0.96,95% CI 0.72至1.28,高质量证据)。关于“初始充分镇静后60分钟需要额外用药”的结局,我们发现有效果(1项RCT,N = 153,RR 0.54,95% CI 0.24至1.20,中等质量证据)。在不良反应方面,我们发现两种药物在呼吸道梗阻(1项RCT,N = 153,RR 0.13,95% CI 0.01至2.55,低质量证据)或呼吸性低氧血症(1项RCT,N = 153,RR 0.70,95% CI 0.16至3.03,中等质量证据)方面没有统计学显著差异——但使用咪达唑仑确实导致约70人中的3人需要某种“气道管理”,而氟哌利多组没有此类事件。没有关于精神状态、服务使用和成本的数据。
此外,当将氟哌利多与奥氮平比较时,对于任何时间点达到镇静或入睡的结局,我们发现较老的药物(氟哌利多)与奥氮平之间没有明显差异(例如在30分钟时:1项RCT,N = 221,RR 1.02,95% CI 0.94至1.11,高质量证据)。有迹象表明,分配到氟哌利多组的参与者在60分钟后比给予奥氮平的人需要更少的额外用药(1项RCT,N = 221,RR 0.56,95% CI 0.36至0.87,高质量证据)。没有证据表明氟哌利多比奥氮平导致更多的心血管心律失常(1项RCT,N = 221,RR 0.32,95% CI 0.01至7.88,中等质量证据)和呼吸道梗阻(1项RCT,N = 221,RR 0.97,95% CI 0.20至4.72,低质量证据)。对于“准备好出院”,两组之间没有差异(1项RCT,N = 221,RR 1.06,95% CI 0.83至{1.34},高质量证据)。没有关于精神状态和成本的数据。
作者结论
以前,氟哌利多的使用是基于经验而不是来自良好开展和报告的随机试验的证据。然而,本次更新发现了高质量证据,且偏倚风险最小,支持氟哌利多用于急性精神病。此外,我们没有发现证据表明氟哌利多不应该作为因严重精神疾病而急性发病和精神障碍患者的一种治疗选择。
Zotero 插件